I’m not interested in damage so much as in changes in e.g. “the exact orientation of presynaptic vesicles” not being integral to our personal identity.
If e.g. someone said “we have no scanning techniques that can tell us how exactly each molecule was oriented, it could have been one of many ways (since you’re e.g. trying to reverse a non-injective function”, I’d say “well, we constantly change that orientation by random body movements, yet don’t mind. So we can assume that change is not identity-constituting.”
Edit: Even a uniform force will affect soluble elements differently from other elements. The stiffness is different for various body elements, which will lead to all sorts of tiny changes: Erythrocytes being pressed against the cell wall etcetera. That’s not a significant change so that we’d say “we leave the elevator a different person”, but that’s precisely the point in the comparison with certain information that can’t be read from a cell: It may not make all that much of a difference.
I’m not interested in damage so much as in changes in e.g. “the exact orientation of presynaptic vesicles” not being integral to our personal identity.
If e.g. someone said “we have no scanning techniques that can tell us how exactly each molecule was oriented, it could have been one of many ways (since you’re e.g. trying to reverse a non-injective function”, I’d say “well, we constantly change that orientation by random body movements, yet don’t mind. So we can assume that change is not identity-constituting.”
Edit: Even a uniform force will affect soluble elements differently from other elements. The stiffness is different for various body elements, which will lead to all sorts of tiny changes: Erythrocytes being pressed against the cell wall etcetera. That’s not a significant change so that we’d say “we leave the elevator a different person”, but that’s precisely the point in the comparison with certain information that can’t be read from a cell: It may not make all that much of a difference.